OISD
OISD-111
Amended edition
FOR RESTRICTED
CIRCULATION
PROCESS DESIGN AND OPERATING PHILOSOPHIES
ON
FIRED PROCESS FURNACE
OISD-STANDARD-111
First Edition, March 1989
Amended edition, August, 1999
Oil Industry Safety Directorate
Government of India
Ministry of Petroleum & Natural Gas
OISD-STANDARD-111
First Edition
November 1988
Amended edition, August, 1999 FOR RESTRICTED
CIRCULATION
PROCESS DESIGN AND OPERATING PHILOSOPHIES
ON
FIRED PROCESS FURNACE
Prepared By:
COMMITTEE ON
PROCESS DESIGN AND OPERATING PHILOSOPHIES
OIL INDUSTRY SAFETY DIRECTORATE
2ND FLOOR, “KAILASH”
26, KASTURBA GANDHI MARG
NEW DELHI - 110 001.
OISD
NOTE
OIL publications are prepared for use in the Oil and gas industry under Minstry of Petroleum and Natural Gas. These are the property of Minstiry of Petroleum and Natural Gas and shall not be reproduced or copied and loaned or exhibited to others without written consent from OISD.
Though every effort has been made to assure the accuracy and reliability of data contained in these documents, OISD hereby expressly disclaims any liability or responsibility for loss or damage resulting from their use.
These documents are intended only to supplement and not replace the prevailing statutory requirements.
Note 1 in superscript indicates the changes / modifications / additions as approved in 17th Safety Council Meeting held in July, 1999.
FOREWORD
The Oil Industry in India is nearly 100 years old. Because of various collabortion agreements, a variety of international codes, standards and practices have been in vogue. Standardisation in design philosophies and operating and maintenance practices at a national level was hardly in existence. This, coupled with feed back from some serious accidents that occurred in the recent past in India and abroad, emphasized the need for the industry to review the existing state of art in designing, operating and maintaining oil and gas installations.
With this in view, the Ministry of Petroleum and Natural Gas, in 1986, constituted a Safety Council assisted by Oil Industry Safety Directorate (OISD), staffed from within the industry, in formulating and implementing a series of self regulatory measures aimed at removing obsolescence, standardising and upgrading the existing standards to ensure safer operations. Accordingly, OISD constituted a number of Functional Committees of experts nominated from the industry to draw up standards and guidelines on various subjects.
The present document on “Fired Process Furnaces” was prepared by the functional committee on “Process Design and Operating Philosophies”. This document is based on the accumulated knowledge and experience of Industry members and the various national and international codes and practices. It is hoped that provisions of this document, if implemented objectively, may go a long way to improve the safety and reduce accidents in Oil and Gas Industry. Suggestions are invited from the users after it is put into practice to improve the document further. Suggesstions for amendments to this document should be addressed to :
The Co-ordinator,
Committee on
“Process Design and Operating Philosophies”,
Oil Industry Safety Directorate,
2nd Floor, “Kailash”
26, Kasturba Gandhi Marg
New Delhi-110 001.
FUNCTIONAL COMMITTEE
ON
PROCESS DESIGN AND OPERATING PHILOSOPIES
LIST OF MEMBERS
Name
/Designation / Organisation
/Status
1. Sh. T.C. Varghese
/ DGM (TECH), HPCL,/
Member
Leader
2. Sh. V.S. Save
/ Sr. Manager, HPCL /Member
3. Sh. G. Raghunathan / Sr. Manager, HPCL /Member
4. Sh. S.V. Puthli / Sr. Manager, HPCL /Member
5. Sh. N. Lal / Dy. Gen. Manager, ONGC /Member
6. Sh. V.K. Ramesh / Dy. Suptd. Engr., ONGC /Co-opted
Member
7. Sh. N. N. Gogoi / Dy. Gen. Manager, OIL /Member
8. Sh. A. Sinha / Dy. Ch. Engr. OIL /Co-opted
Member9. Sh. M.A. Sreekumar / Sr. Manager, CRL /
Member
10. Sh. A. Varadarajan / Sr. Manager, MRL /Member
11. Sh. B.K. Trehan / Addtl. Director , OISD /Member
CoordinatorIn addition to the above several experts from theindustry contributed in the preparation, review and finalisation of the document.
III
OISD
OISD
Process Design And Operating Philosophies
On
Process Furnaces
CONTENTS
Section1.0 / Introduction
2.0 / Scope
3.0 / Location
3.1 / General
3.2 / Safe Distance from Roads
3.3 / Wind Direction
3.4 / F.D. Fan Location
4.0 / Clearances/Accessability
4.1 / Bottom Fired Furnaces
4.2 / Multifloor Side Fired Furnaces
4.3 / Valves
4.4 / Dampers
4.5 / Explosion Doors
5.0 / Basic Design Criteria
5.1 / Cenfiguration
5.2 / Materials of Construction
5.3 / Heat Flux
5.4 / Corrosion Allowance
5.5 / Ladders/Platforms
5.6 / Personnel Protection
5.7 / Peep Holes
6.0 / Process System
6.1 / Pass Flow Control
6.2 / Pressure Monitoring
6.3 / Temperature Monitoring
7.0 / Firing System
7.1 / Burner Mounting
7.2 / Pilot Burners
7.3 / Burner Lighting
7.4 / Fuel Gas Control Valve
7.5 / Blinding of Fuel Gas/Oil
7.6 / Knock Out Pots
8.0 / Utility System
8.1 / Coil Purge
8.2 / Box Purge Steam
9.0 / Safety Instrumentation
9.1 / Indications
9.2 / Alarms
9.3 / Shutdown System
9.3.1 / Shutdown Action
9.4 / Typical
10.0 / Operating Checks
10.1 / Pressure Survey
10.2 / Safety Audit
11.0 / FLOW MEASUREMENT
11.1 / Temperature Measurement
11.2 / Monitoring of Decoking
11.3 / Quench Pot for Decoking
11.4 / Tests after Decoking
11.5 / Decoking Schematic
12.0 / SAFETY IN FURNACE OPERATION
12.1 / Display Board
12.2 / Check-List for Furnace Lighting
12.3 / Precautions in Shutdown
12.4 / Tube Failure
13.0 / GENERAL
13.1 / House-Keeping
13.2 / Safety Shower
13.3 / Fire Fighting Facilities
14.0 / REFERENCES
Attachements
Annexures
I / Typical Arrangement for coil purge steam/inert gas to a four pass furnace
II / Safety Instrumentation for a four pass furnace
III / Decoking system for a four pass furnace
OISD 15
PROCESS DESIGN AND OPERATING PHILOSOPHIES
ON FIRED PROCESS FURNACE
OISD 15
1.0 INTRODUCTION
Fired Process Furnaces are usually component parts of process plants. These are primarily use to beat hydrocarbons of all types, from heavy crude oils and asphalt to the lightest hydrocarbon liquids or gases. These may also be used to heat other substances such as air or steam.
A fired process furnace consists of three basic parts; a heating coil, a setting and a stack. The heating coil consists of length of tubing connected together which carry the material being heated. The setting is a suitable housing for firing. It is connected to a stack by means of a duct. The furnace may be fired by oil or gas burners. Instruments are generally used to control rate of firing and flow through coils to maintain desired operat-ing conditions. The design, type, size and other similar design aspects of any individual furnace are based on and determined by various factors such as operating process, size of the unit, space available, economics etc. However safety and operational efficiency should be the primary factors in design consideration for furnace.
2.0 SCOPE
This document covers safety provisions in fired process furnaces in Petroleum and Natural Gas Industry. These shall be the minimum requirement and additional safety features have to be provided depending on individual situations. This does not include boilers and direct fired furnaces like direct fired air heater of FCCU and sulphur reaction furnace since they are specialty items.
3.0 LOCATION
The following factors should be considered while locating a fired process furnace:
3.1 GENERAL
Furnace should be located only at edges of the process units to limit the hazard of open flame to only the small part of the plant facing the furnace and also to facilitate easy fire fighting operations in case fire breaks out in the furnace. Also the furnace should be at least 15 meters away from the nearest process equipment handling hydrocarbon, with no sewer boxes, sampling points etc. in between, form where hydrocarbon could emit vapours when the furnace is on.
3.2 SAFE DISTANCE FROM ROADS
There should be a minimum distance of 15 meters form the periphery of the furnace to the edge of any road with vehicular traffic.
3.3 WIND DIRECTION
Furnaces should always be located upwind or sidewind form the rest of the plant.
3.4 F.D. FAN LOCATION
F.D fans wherever applicable should be located at grade. Air intake to the FD fan, should be from a safe location so that no hydrocarbon can be sucked into them.
4.0 CLEARANCE/ACCESSIBILITY
4.1 BOTTOM FIRED FURNACES
There should be a minimum of 1.75 meters of headroom for the bottom fired furnace floor including plenum chamber, if any, above grade for operational conveniences and safety.
4.2 MULTIFLOOR SIDE FIRED FURNACES
For multifloor side fired furnaces, 1.0 meter wide platform and 2.0 meters high headroom should be provided.
4.3 VALVES
Unless remote operated, valves on the fire box purging and coil purging steam lines should be located atleast 15 meters away from the furnace in the form of a manifold and distinctly marked for easy identification.
4.4 DAMPERS
Dampers should be operable from ground. Position of damper while in operation should be distinctly visible from ground.
4.5 EXPLOSION DOORS
Explosion doors shall be provided for all furnaces to release accidental over press-ures. Explosion doors should be located in such a way that the discharge is directed to a safe area.
5.0 BASIC DESIGN CRITERIA
5.1 CONFIGURATION
The selection of the configuration of furnace, viz. vertical, horizontal, bottom fired, side fired etc. should be judged from various design consideration like heat duty, service etc. and safety consideration like layout limitations, accessibility etc.
5.2 MATERIALS OF CONSTRUCTION
The selection of materials for various parts of the furnaces should be done depending on:
a) Temperature
b) Type of process Fluid
c) Type of fuel used
5.3 HEAT FLUX
The burners should be designed & spaced in such a way that heat flux on to the tubes of the furnace at any point does not let the skin temperature go above the allowable limit for the material of the tubes at the maximum allowable design conditions.
5.4 CORROSION ALLOWANCE
Depending on the material of construction of the tubes and the type of process fluid handled, adequate corrosion allowance should be given to the tubes so that failure of the tubes due to corrosion does not occur. In case the furnace handles different types of process fluid, the corrosion allowance should be decided on the assum-ption that it handles the most corrosive fluid at all the item.
5.5 LADDERS/PLATFORMS
A minimum of tow ladders or staircase should be provided for reaching the various elevations of the furnace. At any elevation, access to both ladders should be available. Platforms Provided at various elevations should be sufficient to carry out operating checks and routine maintenance jobs during the run. If cat / monkey ladders are provided, provide safety chain / rod at the entrance. Note 1
5.6 PERSONNEL PROTECTION
If the shell temperature at any point on the furnace is above 55 Deg.C suitable protect-ion of personnel should be provided.
5.7 PEEP HOLES
Irrespective of the type of furnace, peep holes should be provided both at the furnace floor and sides so that the operator can have a fair view of all the radiant tubes, bottom row of convection tubes and burner patter. Air screens should be provided at these peep holes when the furnace is pressurised.
6.0 PROCESS SYSTEM
6.1 PASS FLOW CONTROL & MONITORING
It is necessary to provide flow-control on each pass of the furnace to avoid unbalancing of the flow due to coking or partial vapourisation and thus to avoid overheating of tubes. The individual pass flow of the furnace should have recorders, low flow alarms and fuel cut-off at low coil flow.
6.2 PRESSURE MONITORING
Pressure gauges shall be provided at the inlet and cross over of each pass. A common pressure gauge shall be provided t the common outlet of the furnace.
6.3 TEMPERATURE MONITORING
Temperature indicators shall be provided at Control Room for the cross over, outlet of each pass and the common outlet of all passes.
7.0 FIRING SYSTEM
7.1 BURNER MOUNTING
The burner mounting should be such that there is no impingement of flame on the tubes.
7.2 PILOT BURNERS
Each burner shall be provided with a gas pilot burner, with fuel gas supplied at steady pressure and condensate free. The pilots shall be kept always on when the furnace is in service. Liquid fuel operated pilot burners are not recommended as those are not reliable.
7.3 BURNER LIGHTING
Lighting ignitors to light up the pilot burners are recommended Alternatively, LPG torch may be used to light the burners. The use of acetylone torch/oil soaked torch to light the burner should be avoided. Main burners should be lighted only from pilot burners. Lighting a main burner from the heat of adjacent burner is unsafe and should not be practiced. LPG cylinder used for the torch should be removed from the vicinity of the furnace after lighting up the furnace.
7.4 FUEL GAS CONTROL VALVE
In some existing furnaces, double diaphragm control valve with fuel gas itself acting against instrument air to compensate for pressure variations are used. In order to avoid the danger of fuel gas coming out through the vent going into instrument air system if the diaphragm ruptures, the use of such valves is not recommended. An automatic vent valve should be provided to release the trapped gas between the process control valve and the shutdown valve.
7.5 BLINDING OF FUEL GAS/OIL
Fuel gas lines should have provision for blinding off adjacent to the burners & down-stream of the control valve with spectacle blinds, who position is visible at all times. Main fuel oil line and main fuel gas line to the furnace should also have provision for blinding at the down-stream of control valve and at the return line. It should be possible to blind fuel gas to pilot burners also. Fuel gas lines should be kept blinded of when the furnace is not in operation.
7.6 KNOCK OUT POTS
The fuel gas lines should be provided with knock-out pots so that condensate will not get into the burner lines. Knock-out pot for each furnace should be located 15 M away form it and its drain should be connected to the flare. Gauge glass and a high level alarm should be provided for the knock-out pot should be steam traced. The fuel gas lines to/from knock-out pot should be slopped towards the knock-out pot.